RMO-RMG Burner Controller
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Transcript of RMO-RMG Burner Controller
CC1N7136en11.12.2002
Riello Siemens Building TechnologiesHVAC Products
ISO 9001
7136
Burner Controls RMO88.53...RMG88.62...
RMG/M88.62...
Microcontroller-based burner controls for the supervision of single- or multi-stage forced draft gas / oil burners in intermittent operation.Oil throughput above 30 kg / h and a maximum capacity above 120 kW when fir-ing on gas.
The RMO88.53... / RMG88.62... / RMG/M88.62... and this Data Sheet are intendedfor OEMs which integrate the burner controls in their products.
Use, features
The burner controls are designed for the startup and supervision of single- or multi-stage forced draft burners in intermittent operation. The RMO88.53... is for use withforced draft oil burners, the RMG88.62... / RMG/M88.62... for forced draft gas burners.When firing on oil, yellow-burning flames are supervised with photoresistive detectorsQRB1B..., and blue-burning flames with blue-flame detectors QRC... When firing ongas, the flame is supervised with an ionization probe or flame detector QRA... (withancillary unit AGQ2...A27).
- Forced draft oil burners to EN 267- Burner controls for use with atomization oil burners of monoblock design to EN 230
- Forced draft gas burners to EN 676- Burner controls to EN 298
Use
Firing on oil
Firing on gas
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
When firing on oil- Contact for preheating the oil- Monitoring of time for preheating the oil- Limitation of the number of repetitions
When firing on gas- Monitoring of air pressure with functional check of the air pressure switch during
startup and operation
General- Undervoltage detection- Electrical remote reset- Accurate and reproducible program sequence owing to digital signal handling- Controlled intermittent operation after 24 hours of continuous operation- Multicolor display of status and error messages
Warning notes
To avoid injury to persons, damage to property or the environment, the followingwarning notes should be observed!
Do not open, interfere with or modify the unit!
� Before performing any wiring changes in the connection area, completely isolatethe burner control from the mains supply (all-polar disconnection)
� Ensure protection against electric shock hazard by providing adequate protectionfor the burner control’s terminals
� Check to ensure that wiring is in an orderly state and that the wires are firmly con-nected
� Press the lockout reset button of the burner control or the reset button extensionAGK20.43 only manually (applying a force of no more than 10 N), without usingany tools or pointed objects
� Fall or shock can adversely affect the safety functions. Such units may not be putinto operation, even if they do not exhibit any damage
Engineering notes
� When used in connection with actuators, there is no position feedback signal fromthe actuator to the burner control
� The running times of the actuators must match the burner control’s program. Anadditional safety check of the burner control together with the actuators is required
Mounting notes
� Ensure that the relevant national safety regulation are complied with
Application-specificfeatures
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Installation notes
� Installation work must be carried out by qualified staff� Observe the permissible lengths of the detector cables (refer to «Technical data»)� Always run the high-voltage ignition cables separately while observing the greatest
possible distances to the unit and to other cables� Install switches, fuses, earthing, etc., in compliance with local regulations� Ensure that the maximum permissible current ratings will not be exceeded (refer to
«Technical data»)� Do not feed external mains voltage to the control outputs of the unit. When testing
the devices controlled by the burner control (fuel valves, etc.), the burner controlmust never be connected
� Phase and neutral conductors may not be interchanged
Electrical connection of ionization probe and flame detector
It is important to achieve practically disturbance- and loss-free signal transmission:� The cable length must not exceed 1 m� Never run the detector cable together with other cables
– Line capacitance reduces the magnitude of the flame signal– Use a separate cable
� Insulation resistance– Must be a minimum of 50 M� between ionization probe and ground– Soiled detector holders reduce the insulation resistance, thus supporting creep age currents
� Earth the burner in compliance with the relevant regulations; earthing the boileralone does not suffice
� Observe the polarityWith supervision of the ionization current, the burner controls can detect wrongpolarity of live and neutral conductors, in which case they initiate lockout at the endof «TSA»
� The ionization probe must be protected against electric shock hazard� Locate the ionization probe such that
– the ignition spark cannot arc over to the ionization probe (risk of electrical overloads)
– the ignition spark cannot adversely affect supervision of the ionization current� In networks with nonearthed neutral conductor and ionization current supervision,
terminal 6 must be connected to burner ground
Only when firing on gas
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Commissioning notes� Commissioning work must be carried out by qualified staff� When commissioning the plant or when doing maintenance work, make the follow-
ing safety checks:
Safety check Anticipated responsea) Burner startup with flame detector darkened or
with open-circuit to the ionization probeLockout at the end of «TSA»
b) Burner startup with flame detector exposed toextraneous light (only when firing on oil)
Lockout after no more than25 seconds or immediate lockoutduring the prepurge time
c) Burner operation with simulated flame failure; forthat purpose, darken the flame detector duringoperation and maintain that status or interruptthe gas supply
Firing on oil: Repetition followedby lockout at the end of «TSA»Firing on gas: immediate lockoutafter the flame has extinguished
d) Burner startup with response from air pressureswitch (only when firing on gas)
Lockout at the end of the waitingtime «tw»
e) Burner operation with simulated loss of air pres-sure (only when firing on gas)
Immediate lockout
Standards
Conformity to EEC directives- Electromagnetic compatibility EMC (immunity) 89 / 336 EEC- Directive for gas-fired appliances 90 / 396 EEC- Low-voltage directive 73 / 23 EEC
Service notes
� Maintenance work must be carried out by qualified staff� Each time a unit has been replaced, check to ensure that wiring is in an orderly
state and that the wires are firmly connected. Make the safety checks as listed in«Commissioning notes»
Disposal notes
The unit contains electrical and electronic components and may not be disposed oftogether with household waste.Local and currently valid legislation must be observed.
Mechanical design
The housing of the burner controls is made of impact-proof, heat-resistant and flame-retarding plastic.
The housing accommodates the- microcontroller which controls the program sequence, and the relays for load con-
trol- electronic flame signal amplifier (for the ionization probe when firing on gas, for the
flame detector when firing on oil)- lockout reset button with its integrated 3-color signal lamp for status and error mes-
sages and the socket for connecting the interface adapter OCI400- terminals (maximum 15) for connecting the Riello base (part nos. 2061506 and
2221314)- Central fixing screw for securing the housing to the Riello base (part nos. 2061506
and no. 2221314)
- Multicolor display of status and error messages- Transmission of status and error messages and detailed service information via
additional interface adapter OCI400 and PC Windows software ACS400
Display and diagnosis
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Type summary
Riello HVAC ProductsRMO88.53A1 LMO88.530A1RLRMO88.53A2 LMO88.530A2RLRMG88.62A1 LMO88.620A1RLRMG88.62A2 LMO88.620A2RLRMG/M88.62A2 LMO88.621A2RL
Type reference Mains voltage twmax.
TSAmax.
t1min.
t3min.
t3nmin.
t4min.
t42min.
Response in the event of loss offlame during operation
RMO88.53A2 AC 220...240 V ¹) 2 s 5 s 23 s 22 s 7 s 7 s 7 sRMO88.53A1 AC 100...120 V 2 s 5 s 23 s 22 s 7 s 7 s 7 s
Maximum 3 repetitions, followed bylockout
Firing on gas
Type summary Mains voltage tw ²)max.
TSAmax.
t1min.
t3nmin.
t4min.
t10max.
t11min.
t12min.
Response in the event of lossof flame during operation
RMG88.62A2 AC 220...240 V ¹) 2 s 3 s 25 s 2 s 10 s 10 s --- 15 s LockoutRMG88.62A1 AC 100...120 V 2 s 3 s 25 s 2 s 10 s 10 s --- 30 s LockoutRMG/M88.62A2 AC 220...240 V ¹) 2 s 3 s 20 s 2 s 10 s 10 s 35 s 30 s Lockout
TSA Ignition safety time t4 Interval «BV1-BV2»tw Waiting time t42 Interval «BV2-BV3»t1 Prepurge time t10 Specified time for air pressure signal («LP» time)t3 Preignition time t11 Programmed opening time for actuator «SA»t3n Postignition time t12 Programmed closing time for actuator «SA»
¹) For applications outside the European Community, operation at mains voltage AC 200...240 V ±10 % is ensured²) Max. 20 s, when «CPI» or «LP» are not in the idle position
Ordering
Burner control including plug-in base refer to «Type summary»
Photoresistive detector QRB1B...(refer to Data Sheet 7714)
Blue-flame detector QRC1...(refer to Data Sheet 7716)
Ancillary unit for UV supervision- Cable length 500 mm AGQ2.1A27- Cable length 300 mm AGQ2.2A27
Diagnostic tool(refer to Data Sheet 7614)- Hardware OCI400- Software ACS400
Lockout reset button extension AGK20.43
Type referencesRiello andHVAC Products
Firing on oil
Legend
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Technical dataMains voltage- RMO88.53A2, RMG88.62A2
- RMG/M88.62A2- RMO88.53A1, RMG88.62A1
AC 220...240 V +10 % / -15 % ¹)¹) For applications outside the European
Community, operation at mains voltageAC 200...240 V ±10 % is ensured
AC 220...240 V +10 % / -15 %AC 100...120 V +10 % / -15 %
Mains frequency 50...60 Hz ±6 %External primary fuse (Si)- Only RMO88.53A1 T6,3H250V (IEC 60 127-215)Built-in fuse (F)- Not for RMO88.53A1
T6,3H250V (IEC 60 127-215)
Power consumption 20 VAMounting position optionalWeight approx. 260 gSafety class IDegree of protection IP 20
(user must ensure min. IP 40 when built in)Tightening torque fixing screw M4 max. 0.8 NmPerm. cable length thermostat max. 20 m at 100 pF / mPerm. cable length oil preheater max. 20 m at 100 pF / mPerm cable length air pressure switch max. 1 m at 100 pF / mPerm. cable length CPI max. 1 m at 100 pF / mPerm. cable length gas pressure switch max. 20 m at 100 pF / mPerm. cable length detector cable max. 1 mPerm. cable length remote reset max. 20 m at 100 pF / mUndervoltage protection, switch-off voltage- RMO88.53A2, RMG88.62A2- RMO88.53A1, RMG88.62A1- RMG/M88.62A2
approx. AC 165 V (AC 160...170 V)approx. AC 65 V (AC 60...70 V)approx. AC 165 V (AC 160...175 V)
Max. perm.amperage at cos� � 0.6
RMO88.53A2 RMO88.53A1 RMG88.62A2RMG/M88.62A2
RMG88.62A1
Terminal 1 5 A 5 A 5 A ---Terminal 2 --- --- --- 5 ATerminal 3 --- --- 0.5 A 0.5 ATerminal 4 --- --- --- 1 ATerminal 5 1 A 1 A 1 A ---Terminal 7 --- --- 5 A ---Terminal 10 1 A 1 A --- 5 ATerminal 11 5 A 5 A --- ---Terminal 12 2 A ²) 2 A ²) 1 A 1 ATerminal 13 1 A 1 A 2 A ²) 1 ATerminal 14 1 A 1 A 1 A 2 A ²)
²) 3 A at a maximum of 150,000 switching cycles
Transport DIN EN 60 721-3-2Climatic conditions class 2K2Mechanical conditions class 2M2Temperature range -20...+70 °CHumidity < 95 % r.h.Operation DIN EN 60 721-3-3Climatic conditions class 3K5Mechanical conditions class 3M2Temperature range -5...+60 °CHumidity < 95 % r.h.
Condensation, formation of ice and ingress of water are not permitted!
General unit data
Environmentalconditions
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At mains voltageUN = AC 100...120 V
At mains voltageUN = AC 220...240 V ¹)
Detector voltage across ionization probe andground (AC voltmeter, Ri � 10 M�) AC 50...120 V AC 115...240 VSwitching threshold (limit values):Switching on(flame on, DC ammeter Ri � 5 k�)Switching off(flame off, DC ammeter Ri � 5 k�)
� DC 1.5 µA
� DC 0.5 µA
Detector current recommended for reliableoperation
� DC 6 µA
Maximum short-circuit current betweenionization probe and ground(AC Ri � 5 k�)
AC 50...150 µA AC 100...300 µA
¹) For applications outside the European Community, operation at mains voltage AC 200...240 V ±10 % is ensured
Flame supervision is accomplished by making use of the conductivity and rectifyingeffect of the flame.
The flame signal amplifier responds only to the DC component of the flame signal.� A short-circuit between ionization probe and ground causes the burner control to
initiate lockout!
MRMO88...
C+
FE
7136
a01/
0302
+-
For detector currents, refer to «Technical data»
LegendC Electrolytic capacitor 100...470 µF; DC 10...25 VFE Ionization probeM Microammeter, Ri max. 5000 �
Mains voltage AC 230 V +10 % / -15 %Mains frequency 50...60 Hz �6 %Perm. cable length from QRA... to
AGQ2...A27(lay separate cable)
max. 20 m
Perm. cable length from AGQ2...A27 toRMG88.62A2
max. 2 m
Weight of AGQ2...A27 approx. 140 gMounting position optionalDegree of protection IP 40Power consumption 4.5 VA
At mains voltage UN
AC 220 V AC 240 VDetector voltage at QRA... (with no load)Until the end of «tw» and after controlled shutdown DC 400 V DC 400 VAfter the end of «tw» DC 300 V DC 300 VDetector voltageLoad by DC measuring instrument Ri > 10 M�
Until the end of «tw» and after controlled shutdown DC 380 V DC 380 VAfter the end of «tw» DC 280 V DC 280 VDC current detector signals with flame detectorQRA...
Min. required Max. possible
Measurement at the flame detector DC 200 µA DC 500 µA
Flame supervision withionization probe (onlywhen firing on gas)
Measuring circuit
Flame supervision withAGQ2...A27 and flamedetector QRA...
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In connection with burner controls RMG88.62A2 / RMG/M88.62A2, use of the UV an-cillary unit AGQ2...A27 is mandatory.
Operation with permanent line:UV test with higher supply voltage across the UV cell on startup and after controlledshutdown.
1 15 7 10 7136
a07/
1002
QRA+-
br bl rt swAGQ2...A27sw bl
RMG88.62A2RMG/M88.62A2
1 15 7 10 7136
a08/
1002
br bl rt sw AGQ2...A27sw bl
RMG88.62A2RMG/M88.62A2
QR
A
Measurement made at flame detector
C Electrolytic capacitor 100...470 µF; DC 10...25 V bl BlueM Microammeter Ri max. 5000 � br BrownQRA... Flame detector rt Red
sw Black
At mains voltage UN = AC 100...120 V or UN = AC 220...240 V ¹)Detector current
Minimumrequired
(with flame)
Recommended forreliable operation
Maximum permit-ted (without flame)
Maximum possiblewith flame(typically)
QRB1B... DC 25 µA DC 35 µA DC 5.5 µA DC 100 µA
¹) For applications outside the European Community, operation at mains voltage AC 200...240 V ±10 % is ensured
QRB...
M
RMO88...
+- 7136
a02/
0302 For detector currents, refer to «Technical data»
LegendQRB1B... Photoresistive detectorM Microammeter, Ri max. 5000 �
As an alternative to the detector resistance measurement, the diagnostic tool OCI400 /ACS400 can be used. In that case, use of a DC microammeter is not required.
Ancillary unitAGQ2...A27
Connection diagram
Measuring circuit
Legend
Flame supervision withQRB1B... (only whenfiring on oil)
Measuring circuit fordetector resistancemeasurement
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Photoresistive detector Switching off (flame off) Switching on (without flame)No. 2380226 200 k� 450 k�
7136d04e/1102
kOhm
Lux
Flame supervision withRiello photoresistivedetector no. 2380226
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Function� Burner control is reset� All contacts in the line are closed� Only when firing on gas:
– Air pressure switch «LP» is in its idle position– CPI contact is closed
� No undervoltage� Heat demand contact is closed� Flame detector is darkened, no extraneous light
RMO88.53A1RMG88.62A1
RMO88.53A2RMG88.62A2
RMG/M88.62A2
Safety shutdown from operatingposition in the event mainsvoltage drops below approx.AC 65 V
Safety shutdown from operatingposition in the event mains volt-age drops below approx.AC 165 V
Safety shutdown from operatingposition in the event mains volt-age drops below approx.AC 165 V
Repetition in the event mainsvoltage exceeds approx.AC 80 V
Repetition in the event mainsvoltage exceeds approx.AC 175 V
Repetition in the event mainsvoltage exceeds approx.AC 180 V
After no more than 24 hours of continuous operation, the burner control will automati-cally initiate a safety shutdown followed by an unshortened repetition of startup.
Only when firing on gas:During the startup phase at the beginning of the waiting time «tw», the CPI (ClosedPosition Indicator) contact in the gas valve «BV1» is checked by the RMG88.62... /RMG/M88.62... to ensure it is closed. When the CPI contact subsequently opens, thereis no response from the burner control during the times «t10 / t1 / t12». From programphase «B», that is, at the start of the safety time «TSA», the CPI contact is continuouslychecked to ensure it is open. If not, lockout will occur.
Only when firing on oil:When the oil is sufficiently preheated, contact «OW» in the external oil preheatercloses. The closed position is monitored during the entire prepurge time «t1» (refer toillustration 7136d01, «Program sequence»).
If the oil preheater’s release contact does not close after 600 seconds, lockout will beinitiated.
Checked air damper control to ensure ignition in the ignition load position. The predefi-ned position must be reached on completion of the programmed closing time «t12» forthe actuator. Otherwise, lockout will be initiated.
Only when firing on oil:If extraneous light is detected, lockout will take place within the period of time «t3».Before a demand for heat is received (standby phase), only extraneous light is indi-cated by the red-green flash light in the lockout reset button. Extraneous light is indi-cated for a maximum of 25 seconds. If extraneous light is detected for a longer periodof time, lockout will be initiated.
Only when firing on gas:If extraneous light is detected, lockout will take place within the periods of time «t1» and«t12». During the times «t0» and «tw», only extraneous light is indicated by the red-green flash light in the lockout reset button. Extraneous light is indicated for a maximumof 25 seconds. If extraneous light is detected for a longer period of time, lockout will beinitiated.
When changing from the operating state to standby or repetition (only when firing onoil), a flame signal is permitted for a period of 10 seconds after the heat demand con-tact has opened. Otherwise, lockout will occur.
Preconditions forstartup
Undervoltage
Controlled intermittentoperation
CPI
Oil preheater
Monitoring of timeof oil preheater
Air damper control(only RMG/M88.62A2)
Detection ofextraneous light
Flame supervision
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Only when firing on gas:If air pressure switch «LP» changes to its idle position during the prepurge time «t1»,the program will return to the beginning of «t10».Loss of air pressure during «t1» may occur no more than 4 times.If loss of air pressure occurs on completition of «t1», the burner control will immediatelyinitiate lockout.
If fuse is blown due to overload, the unit´s life expectancy will be shortened.
If lockout occurs, the outputs for the fuel valves and ignition will immediately be deacti-vated (< 1 second).
Cause ResponseGeneralMains failure Repetition with unshortened program
sequenceVoltage has dropped below the undervoltagethreshold
Repetition with unshortened programsequence
Burner does not ignite after «TSA» LockoutAfterburn time > 10 seconds Lockout
Only when firing on oilLoss of flame during operation Maximum 3 repetitions, followed by lockoutOil preheater’s release contact does notclose
Lockout 600 seconds after demand for heat
Oil preheater’s release contact opens andcloses more than 5 times during «t1»
Lockout
Extraneous light during «t0» and «tw» Red-green signal lamp steady on, lockoutafter 25 seconds
Extraneous light during «t1» Lockout
Only when firing on gasLoss of flame during operation Immediate lockoutContacts of air pressure switch «LP» havewelded in their idle position
Lockout 10 seconds after the end of «t10»
«CPI» contact is open during «tw» Lockout after approx. 20 sIgnition load position not reached before startof «TSA»
Immediate lockout
Contacts of air pressure switch «LP» havewelded in their working position
Prevention of startup and lockout after about20 seconds
Loss of air pressure during «t1» Maximum 4 repetitions at the start of «t10»,followed by lockout
Loss of air pressure after the fuel valve hasopened
Immediate lockout
Extraneous light during «t0» and «tw» Red-green signal lamp flashes, lockout after25 seconds
Extraneous light 5 seconds after completionof «tw» until start of «TSA»
Lockout
In the event of lockout, the burner control remains locked (lockout cannot be changed)and the red signal lamp will light up.This status is also maintained in the event of a mains failure.
If lockout occurs, the burner control can immediately be reset. To do this, keep thelockout reset button depressed for about 1 second.
Loss of air pressure
Fuse
Control sequence in theevent of fault
Lockout
Resetting the burnercontrol
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Operation, display, diagnosis
EK
7136
z01/
1200 Lockout reset button «EK...» is the key operating element for resetting
the burner control and for activating / deactivating the diagnostic func-tions.
LED71
36z0
2e/0
101 Red
YellowGreen
The multicolor LED is the key indicating element for both the visualdiagnosis and the interface diagnosis.
Both «EK...» and LED are located under the transparent cover of the lockout resetbutton.
There are 2 diagnostic choices:1. Visual diagnosis: Indication of operating state.2. Interface diagnosis: With the help of the interface adapter OCI400 and PC software
ACS400 or flue gas analyzers of different makes.
Visual diagnosis:In normal operation, the different operating states are displayed in the form of colorcodes according to the color code table below. The interface diagnosis is activated bypressing the lockout reset button for at least 3 seconds (refer to Data Sheet 7614). If,by accident, the interface diagnosis has been activated, in which case the slightly redlight of the signal lamp flickers, it can be deactivated by again pressing the lockoutreset button for at least 3 seconds. The moment of switching over is indicated by ayellow light pulse.
Operating position
EK
> 3 s
Operating positionInterface diagnosis
PC / analyzer
7136
z03e
/090
1
Visual diagnosis
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
Color code table
During startup, indication is according to the following table:Color code table
Sequences used Color code Color«tw», standby with permanent phase,waiting statuses
❍ ❍ ❍ ❍ ❍ ❍ ❍ ❍ ❍ ❍ ❍ Off
Oil: Oil preheater onGas: Prepurging
● .......................................... Yellow
Ignition phase, ignition controlled ● ❍ ● ❍ ● ❍ ● ❍ ● ❍ ● Yellow-offOperation, flame o.k. ❏ .......................................... GreenOperation, poor flame (when detectorcurrent drops below the recom-mended level for reliable operation)
❏ ❍ ❏ ❍ ❏ ❍ ❏ ❍ ❏ ❍ Green-off
Undervoltage, built-in fuse ● � ● � ● � ● � ● � ● Yellow-redFault, alarm �......................................... RedExtraneous light � ❏ � ❏ � ❏ � ❏ � ❏ � Red-greenError code output (e.g. 2 blinks) � � ❍ � � ❍ � � ❍ Red-off
...... Steady on
● Yellow ❍ Off� Red ❏ Green
Operation
Indication ofoperating state
Legend
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After lockout, the red fault signal lamp remains steady on. In that condition, the visualdiagnosis of the cause of fault according to the error code table can be activated bypressing the lockout reset button for more than 3 seconds. Pressing the reset buttonagain for at least 3 seconds, the interface diagnosis will be activated. The interfacediagnosis works only if the lockout reset button AGK20.43 extension is not fitted. Formore detailed information, refer to Data Sheet 7614.
The following sequence activates the diagnosis of the cause of fault:
EK
> 3 s
Flashing
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
Error code table
EK
> 3 s
Interface diagnosisPC / analyzer
OC
I400
EK
< 3 s
7136
z04e
/110
2
ResetOn
Visual diagnosis
Lockout position Lockout position Lockout position
Error code tableOil Gas
RMO88.53... RMG88.62...RMG/M88.62...
Blink code Possible cause
x x 2 x blinks��
No establishment of flame at the end of «TSA»- Faulty or soiled fuel valves- Faulty or soiled flame detector- Poor adjustment of burner, no fuel- Faulty ignition
--- x 3 x blinks���
Faulty air pressure switch
x x 4 x blinks����
Extraneous light
x x 5 x blinks�����
«CPI» contact is open during «tw»
--- x 6 x blinks������
- Faulty actuator- Actuator position not reached- Cams incorrectly adjusted
x x 7 x blinks�������
Loss of flame during operation- Faulty or soiled fuel valves- Faulty or soiled flame detector- Poor adjustment of burner
x --- 8 x blinks��������
Monitoring of oil preheater time
x x 9 x blinks���������
Free
x x 10 x blinks����������
Wiring error or internal error, output contacts; faults thatcannot be detected, such as simultaneous faults
During the time the cause of fault is diagnosed, the control outputs are deactivated.- Burner remains shut down- External fault indication remains deactivated- Fault signal «AL» is activated
The fault diagnosis is quit and the burner switched on again by resetting the burnercontrol. To do this, press the lockout reset button for about 1 second.
Diagnosis of causeof fault
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Connection diagrams and internal diagrams
Powersupply
FSV
AL EK
K1
K2-1
K2-2
K4-2
K3 K4-1
�C control
1 15 9 5 10 4 8 3 11 14 12 13
7136
a03e
/120
2
BV2
Z
M
EK2
STB
W
RAL
Si
QRBQRCbr
bl
sw
1
BV3
BV1L
N
OW
HS
Powersupply
FSV
AL EK
K1
K2-1
K2-2 K3 K4-1
K4-2
1 15 9 5 10 4 8 3 11 14 12
7136
a04e
/120
2
13
�C control
BV2
Z
M
EK2
STB
W
RALQRBQRC
br
bl
sw
1
BV3
BV1
OW
SiL
N
HS
F
RMO88.53A1
RMO88.53A2
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Connection diagrams and internal diagrams (cont´d)
Powersupply
FSV
AL EK
K1
K2-1
K2-2
K4-1
K3 K4-2
2 1 9 6 4 3 11 10 8 5 13 12 14 7
7136
a05e
/120
2
�C control
BV1
Z
M
EK2
STB
W
R
AL
BV2
CPI
LP
FE (Option)
SiL
N
HS
F
Powersupply
FSV
AL EK
K1
K2-1
K2-2
K4-1
K3 K4-2
1 15 10 6 5 3 4 7 9 8 14 12 13 11
7136
a06e
/120
2
�C control
BV1
Z
M
EK2
STB
W
R
AL
BV2LP
2
CPIFE (Option)
SiL
N
HS
F
RMG88.62A1
RMG88.62A2
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
Connection diagrams and internal diagrams (cont’d)
Powersupply
FSV
AL EK
K1
K2-1
K2-2
K4-1
K3 K4-2
1 15 10 6 5 3 4 7 9 8 14 12 13 11
7136
a11e
/120
2
�C control
BV1
Z
M
EK2
STB
W
R
AL
BV2LP
2
CPIFE (Option)
SiL
N
HS
F
SA
1)
AL Alarm device QRB1B... Photoresistive detectorBV... Fuel valve QRC... Blue-flame detectorCPI Closed Position Indicator bl BlueEK Lockout reset button br BrownEK2 Remote lockout reset button sw BlackF Built-in fuse R Control thermostat or pressurestatFE Ionization probe SA ActuatorFSV Flame signal amplifier Si External primary fuseHS Main switch STB Safety limit thermostatK... Contacts of control relay OW Release contact of oil preheaterLP Air pressure switch W Limit thermostat or pressure switchM Burner motor Z Ignition transformer
1) If the actuator receives no feedback signal from the ignition load position, a wire link mustbe fitted across terminals 7 and 8
RMG/M88.62A2
Legend
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
Connection diagrams and internal diagrams (cont’d)
FSV
AL EK
K1
K2-1
K2-2
K4-1
K3 K4-2
1 15 10 6 5 3 4 7 9 8 14 12 13 11
7136
a12e
/120
2
BV1
Z
M
EK2
STB
W
R
AL
LP
2
CPIFE (Option)
SiL
N
HS
F
N 1 8 2 7 5 6 3 4 9
R1 R3
B b1 b2
A a1 a2
IM
II III
2)
V6
LK
RV1)
SQN3x.x6xAxxxx
LR
�C controlPowersupply
If the contacts of switch V welded in position 4 � 9, supervision of the ignitionload position would be negated and would not be detected in operation. Thismeans that the circuit welding only used for supervision purposes. The usermust ensure that, in the event of failure (should the burner ignite at nominal load«NL»), no damage will occur.
RMG/M88.62A2 withactuator
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
Control sequence
4
11
12
10
13
9
14
8RW
OW
M
Z
BV1
BV2
FS
t1
t3
t3n
TSA
7136
d01e
/110
2
tw
BV3t4 t42
t0
9FS
LED
Response in the event of loss of flame during operation (max. 3 failures permitted)
9FS 9FS
Response in the event of "OW" contact open during prepurging (max. 4 failures permitted)
94OW
Yellow GreenFlashing yellow
1STBA´ B B´ C DA
max. 600 s
11
10
12
9
14
8
13
3
RW
M
Z
BV1
BV2/LR
FS
TSAtw
SA
t4
LPt10
1 s
t3n
t12t1
5CPI 7136
d02e
/110
2
LED
11LP
Response in the event of loss of air pressure
4AL
1) 1) 1) 1)
YellowFlashingyellow Green
Yellow
2STBA B B´ DC
t0
RMO88.53A1RMO88.53A2
RMG88.62A1
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
Control sequence (cont´d)
4
7
12
10
13
9
14
3
RW
M
Z
BV1
BV2/LR
FS
TSAtw
SA
t4
LPt10
1 s
t3n
t12t1
2CPI 7136
d03e
/110
2
LED
4LP
Response in the event of loss of air pressure
5AL
1) 1) 1) 1)
YellowFlashingyellow Green
Yellow
1STBA B B´ DC
t0
RMG88.62A2
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
Control sequence (cont´d)
4
12
10
13
9
14
3
RW
M
Z
BV1
BV2/LR
FS
TSAtw
SA
t4
LP
t11
t3n
t12t1
2CPI 7136
d07e
/110
2
LED
4LP
5AL
1) 1) 1) 1)
YellowFlashingyellow Green
Yellow
1STBA B B´ DC
t0
7LK
8Terminal 8
I
t10
400 ms
400 ms
Response in the event of loss of air pressure
Control signals of burner control 1) LockoutRequired input signals
Permitted input signals
A´ Beginning of startup with burners using B-B´ «TSA»
«OW» C Change to operationA Heat demand C-D OperationB End of prepurging, start of «TSA» D Change to standby
BV... Fuel valve R Control thermostat or pressurestatCPI Closed Position Indicator SA Actuator
FS Flame signal STB Safety limit thermostatLP Air pressure switch OW Release contact of oil preheaterLR Load controller W Limit thermostat or pressure switch
M Burner motor Z Ignition transformer
tw Waiting time t4 Interval «BV1-BV2»
TSA Ignition safety time t10 Specified time for air pressure signalt0 Waiting for heat demand from «R» t11 Programmed opening time for actuator «SA»t1 Prepurge time t12 Programmed closing time for actuator «SA»
t3n Postignition time (ignition time during «TSA») t42 Interval «BV2-BV3»
RMG/M88.62A2
Legend
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Siemens Building Technologies CC1N7136enHVAC Products Riello 11.12.2002
Dimensions
Dimensions in mm
110,7
85,3
510
3,7
64,5
7136m02/1002
7136m04/1002
2622
5,5
43
Burner control withplug-in base
Burner control completewith lockout reset but-ton extensionAGK20.43 and plug-inbase
� 2002 Siemens Building TechnologiesSubject to change!